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[STATS] cosmetics on Map before changes.
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1 {-|
2 Module : Gargantext.Viz.Graph.Bridgeness
3 Description : Bridgeness filter
4 Copyright : (c) CNRS, 2017-Present
5 License : AGPL + CECILL v3
6 Maintainer : team@gargantext.org
7 Stability : experimental
8 Portability : POSIX
9
10 Let be a graph with partitions (from Louvain algo), Bridgeness uniformly
11 filters inter-communities links.
12
13 -}
14
15 {-# LANGUAGE NoImplicitPrelude #-}
16
17 module Gargantext.Viz.Graph.Bridgeness (bridgeness)
18 where
19 --import GHC.Base (Semigroup)
20 import Gargantext.Prelude
21 --import Data.Tuple.Extra (swap)
22 --import Gargantext.Viz.Graph
23 import Data.Map (Map, fromListWith, lookup, fromList, delete, toList, mapKeys, mapWithKey, elems)
24 import qualified Data.Map as DM
25 import Data.Maybe (fromJust)
26 import Data.List (concat, sortOn)
27 import Data.Graph.Clustering.Louvain.CplusPlus (LouvainNode(..))
28
29
30 -- TODO mv in Louvain Lib
31 type LouvainNodeId = Int
32 type CommunityId = Int
33
34 type Bridgeness = Double
35
36
37 bridgeness :: Bridgeness
38 -> [LouvainNode]
39 -> Map (LouvainNodeId, LouvainNodeId) Double
40 -> Map (LouvainNodeId, LouvainNodeId) Double
41 bridgeness b ns = DM.fromList
42 . concat
43 . DM.elems
44 . filterComs b
45 . groupEdges (nodeId2comId ns)
46
47 nodeId2comId :: [LouvainNode] -> Map LouvainNodeId CommunityId
48 nodeId2comId ns = fromList [ (nId,cId) | LouvainNode nId cId <- ns]
49
50 groupEdges :: Map LouvainNodeId CommunityId
51 -> Map (LouvainNodeId, LouvainNodeId) Double
52 -> Map (CommunityId, CommunityId) [((LouvainNodeId, LouvainNodeId), Double)]
53 groupEdges m = mapKeys fromJust
54 . delete Nothing
55 . fromListWith (<>)
56 . map (\((n1,n2), d)
57 -> ((,) <$> lookup n1 m
58 <*> lookup n2 m
59 , [((n1,n2),d)]
60 )
61 )
62 . toList
63
64 filterComs :: Bridgeness
65 -> Map (CommunityId, CommunityId) [((LouvainNodeId, LouvainNodeId), Double)]
66 -> Map (CommunityId, CommunityId) [((LouvainNodeId, LouvainNodeId), Double)]
67 filterComs b m = mapWithKey filter' m
68 where
69 filter' (c1,c2) a = case c1 == c2 of
70 True -> a
71 False -> take n $ sortOn snd a
72 where
73 n = round $ b * a' / t
74 a'= fromIntegral $ length a
75 t = fromIntegral $ length $ concat $ elems m
76
77